Displaying publications 1 - 20 of 36 in total

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  1. Fletcher W, Travers EAO
    Matched MeSH terms: Quinine
  2. Fletcher W
    Matched MeSH terms: Quinine
  3. Matched MeSH terms: Quinine
  4. Lonie TC
    Br Med J, 1933;2:126-7.
    Matched MeSH terms: Quinine
  5. Jolley PGE
    Malayan Medical Journal, 1932;7:129-131.
    Matched MeSH terms: Quinine
  6. Wallace RB
    Malayan Medical Journal, 1934;9:146-54.
    Matched MeSH terms: Quinine
  7. M'Hutchison GB, Duff WR
    Matched MeSH terms: Quinine/therapeutic use
  8. Jamaludin A, Mohamad M, Navaratnam V, Selliah K, Tan SC, Wernsdorfer WH, et al.
    Br J Clin Pharmacol, 1988 Feb;25(2):261-3.
    PMID: 3358888
    The hydrochloride, sulphate and ethylcarbonate salts of quinine were given in single oral doses (600 mg base equivalent) to nine healthy male subjects according to a cross-over design. No statistically significant differences were noted in the plasma drug concentration-time profiles although inter- and intra-subject variation in AUC, Cmax and tmax values was appreciable. The ethylcarbonate salt may be preferred for use in paediatric patients because of its neutral taste.
    Matched MeSH terms: Quinine/administration & dosage; Quinine/pharmacokinetics*
  9. Saad B, Bee-Leng Y, Saleh MI, Rahman IA, Mansor SM
    J AOAC Int, 2001 8 15;84(4):1151-7.
    PMID: 11501917
    Potentiometric response characteristics were evaluated for quinine selective sensors based on a lipophilic ion-exchanger potassium tetrakis[3,5-bis(trifluoromethylphenyl)]borate (PTFB) immobilized together with plasticizing solvents in polyvinyl chloride membranes. The use of dioctyl phthalate (DOP), 2-nitrophenyl phenyl ether (NPPE), and bis(2-ethylhexyl)adipate (BEHA) plasticizers produced good quality quinine sensors that were sensitive and fast responding, and exhibited near Nernstian responses when used as batch-sensors. These membranes were further tested in a wall-jet flow-through potentiometric flow injection analysis (FIA) detector. Quinine sensors containing BEHA were the most suitable membrane, with no noticeable differences in sensitivity even after 5 h of continuous exposure to solutions. Interference by foreign species such as alkali, alkaline earth metal ions, sugars, and sodium benzoate was minimal in either the batch-mode (log selectivity coefficients
    Matched MeSH terms: Quinine/analysis*
  10. Wallace RB
    Trans R Soc Trop Med Hyg, 1933;27:131-146.
    1. 1. Paris green was used as a larvicide on an inland hilly estate where A. maculatus was the carrier-and where most of the water treated was moving, more or less rapidly. 2. 2. Three different diluents were tried, viz., lime, talcum and soapstone powder. 3. 3. The strength of the mixture was one part of Paris green to ninety-nine parts of diluent by volume. 4. 4. Distribution was carried out by mechanical blowers and sprayers. 5. 5. The application was checked twenty-four hours afterwards. For one month it was checked forty-eight hours afterwards. 6. 6. There was an increase in breeding places-most of which were found in moving water. 7. 7. There was an increase in larvæ, many of them being over two days old. 8. 8. In spite of treatment of epidemics with plasmochin and quinine, the malaria rate was higher than during the previous year. The rise was more or less consistent, pointing to constant infections. 9. 9. The morbidity rate, death rate and infantile mortality were apparently not adversely affected, but in view of the treatments given with plasmochin, they are of no help in deciding the value of Paris green. 10. 10. There was a distinct fall in anti-larval costs, but the total anti-malarial costs were still high on account of the treatments necessary for epidemics of malaria. 11. 11. The advantages and disadvantages of Paris green are discussed.
    Matched MeSH terms: Quinine
  11. Strahan JH
    Trans R Soc Trop Med Hyg, 1948;41:669-671.
    1.This paper records the treatment by a continuous intravenous quinine drip technique of fifteen cases of heavy P. falciparum infection in malnourished prisoners of war in a Singapore camp. These cases were selected from a series of approximately 1,000.2.The efficiency of the method, its simplicity, and the ease with which it can be combined with blood transfusion or the slow administration of thiamin are stressed.3.Recovery by this method of treatment is recorded of three cases with a peripheral intensity of infection higher than has hitherto been reported in Malaya with survival.4.The author is of the opinion that this is a safe and effective method for the treatment of pernicious falciparum infections.
    Matched MeSH terms: Quinine
  12. Day LF
    Matched MeSH terms: Quinine
  13. Watson M
    Matched MeSH terms: Quinine
  14. Ang HH, Cheang HS
    Chemotherapy, 1999 Nov-Dec;45(6):446-51.
    PMID: 10567775
    Thirty clones were obtained from five Malaysian Plasmodium falciparum isolates using the limiting dilution method. These clones were then subjected to antimalarial testing using the modified in vitro microtechnique. The results showed that ST 85/B3, GC/C10 and ST 85/A2 clones decreased their susceptibilities to 19, 41 and 28% whilst ST 12/F8, ST 85/B3 and ST 85/B3 clones showed increases of 6, 43 and 21%, respectively, against chloroquine, mefloquine and quinine after cryopreservation. Further results also indicated that GC/B4, GC/B7, GC/C10, ST 85/A5, ST 85/D3, ST 148/F8 clones did not show any change (up to 2 decimal places) against chloroquine, ST 12/D5, ST 12/E8, ST 12/F8, ST 148/A5 clones against quinine after cryopreservation. They, however, maintained their original susceptibilities after cryopreservation.
    Matched MeSH terms: Quinine/pharmacology
  15. Ang HH, Chan KL, Mak JW
    Folia Parasitol., 1998;45(3):196-8.
    PMID: 9805783
    Five Malaysian isolates of the protozoan Plasmodium falciparum Welch were cultured in vitro following the method of Trager and Jensen (1976, 1977) and subsequently cloned using the limiting dilution method of Rosario (1981). Thirty clones were obtained and were later characterized against schizontocidal drugs, chloroquine, mefloquine and quinine, using the modified in vitro microtechnique. Results showed that these local isolates were heterogeneous and most of the clones exhibited similar pattern of susceptibility as their parent isolate except for ST 168 clone and two ST 195 clones that were sensitive but two ST 165 clones, two ST 168 clones and five ST 195 clones were resistant against quinine, respectively. Results also indicated that they were pure clones compared to their parent isolate because their drug susceptibility studies were significantly different (p < 0.05).
    Matched MeSH terms: Quinine/pharmacology
  16. Tan HW, Ch'ng SL
    Singapore Med J, 1991 Jun;32(3):189-90.
    PMID: 1876897
    We report a previously undocumented drug interaction between cyclosporine A and quinine. A 39 year old Asian with a recent renal transplant was diagnosed to have a mild cerebral falciparum malaria. He was treated with seven days of oral quinine (600 mg, 8 hourly), followed by a stat dose of pyrimethamine (75 mg)--sulfadoxime (1200mg) because of a strong suspicion of chloroquine resistant falciparum malaria. Using a polyclonal radioimmunoassay method, we measured morning trough cyclosporine A level before, during and after the quinine treatment. Results showed a gradual decrease in the cyclosporine A level from a baseline value of 328 ng/ml to 107 ng/ml after seven days of oral quinine with a subsequent rise to pre-treatment level after discontinuation of quinine. There was no significant change in the dose of cyclosporine A administered during the period of quinine treatment (4.05 to 3.83 mg/kg body weight). Biochemical liver function tests, serum creatinine and hematological parameters were also essentially unchanged during this period. In vitro study showed no significant methodological interference in the cyclosporine assay by quinine dihydrochloride. These findings suggest an in vivo drug interaction between cyclosporine A and quinine. The mechanism of this interaction is not clear. Further studies are required to confirm the significance of this observation. Quinine and its stereoisomer, quinidine should be used with caution until further information is available.
    Matched MeSH terms: Quinine/administration & dosage*
  17. Field JW, Niven JC
    Trans R Soc Trop Med Hyg, 1936;29:647-658.
    A comparison is made between atebrin-musonate and quinine bihydrochloride in the treatment of acute malaria. 286 cases of acute malaria due to Malayan strains of P. falciparum, P. vivax, and P. malariae, were treated in alternating sequence with one or other of these drugs. The rates at which the atebrin-musonate and the quinine case groups became trophozoite-free and fever-free are contrasted in a series of graphs. It is shown that there was a tendency for trophozoites to disappear from the peripheral blood and for temperatures to fall to normal somewhat earlier among cases treated with atebrin-musonate. No toxic effects of any importance were observed (but see footnote p. 657). Evidence is recorded which suggests that the minimal effective daily dose for an adult is 0·375 gramme (= atebrin 0·3 gramme). This dose when given either intramuscularly or intravenously on two successive days effected a rapid disappearance of parasites and fever. Intramuscular administration is regarded as the method of choice. It is noted that absorption of the drug from the muscles is very rapid, and that atebrin may be demonstrated in the urine within 10 minutes of an intramuscular injection of 0·3 gramme. A method of testing for the presence of atebrin in the urine which is sensitive to over one in a million is described. It was not possible to obtain precise data regarding the permanency of cure but an analysis of cases returning to hospital within 10 weeks of discharge suggests that relapses after atebrin-musonate treatment are probably fairly common.
    Matched MeSH terms: Quinine
  18. Islahudin F, Pleass RJ, Avery SV, Ting KN
    J Antimicrob Chemother, 2012 Oct;67(10):2501-5.
    PMID: 22763566 DOI: 10.1093/jac/dks253
    OBJECTIVES: Recent work with the yeast model revealed that the antiprotozoal drug quinine competes with tryptophan for uptake via a common transport protein, causing cellular tryptophan starvation. In the present work, it was hypothesized that similar interactions may occur in malaria patients receiving quinine therapy.

    PATIENTS AND METHODS: A direct observational study was conducted in which plasma levels of drug and amino acids (tryptophan, tyrosine and phenylalanine) were monitored during quinine treatment of malaria patients with Plasmodium falciparum infections.

    RESULTS: Consistent with competition for uptake from plasma into cells, plasma tryptophan and tyrosine levels increased ≥2-fold during quinine therapy. Plasma quinine levels in individual plasma samples were significantly and positively correlated with tryptophan and tyrosine in the same samples. Control studies indicated no effect on phenylalanine. Chloroquine treatment of Plasmodium vivax-infected patients did not affect plasma tryptophan or tyrosine. During quinine treatment, plasma tryptophan was significantly lower (and quinine significantly higher) in patients experiencing adverse drug reactions.

    CONCLUSIONS: Plasma quinine levels during therapy are related to patient tryptophan and tyrosine levels, and these interactions can determine patient responses to quinine. The study also highlights the potential for extrapolating insights directly from the yeast model to human malaria patients.

    Matched MeSH terms: Quinine/administration & dosage*; Quinine/pharmacology
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